chapter 6, lesson 10: carbon dioxide can make a solution acidic · 2019. 8. 9. · ©2019 american...

©2019 American Chemical Society Middle School Chemistry - www.middleschoolchemistry.com 667

Chapter 6, Lesson 10: Carbon Dioxide Can Make a Solution Acidic

Key Concepts• Carbon dioxide (CO2) gas dissolved in water can cause water to become acidic. • �e acidity of water from dissolved CO2 can be reduced by a base such as baking soda

(sodium bicarbonate).

Summary�e teacher blows into a universal indicator solution until it changes color. Students interpret this color change and explain that the solution becomes acidic. Students explore whether carbon dioxide from other sources, namely carbonated water and a chemical reaction between baking soda and vinegar, can also make a solution acidic. Students then apply their observations to the environmental problem of ocean acidi�cation by doing research on this issue.

ObjectiveStudents will be able to explain that carbon dioxide from any source reacts chemically with water to form carbonic acid. �ey will also be able to use the color changes of universal indicator to monitor the changing pH of a solution during a chemical reaction.

EvaluationDownload the student activity sheet, and distribute one per student when speci�ed in the activ-ity. �e activity sheet will serve as the “Evaluate” component of each 5-E lesson plan.

SafetyBe sure you and the students wear properly ��ing goggles during the activity and wash hands a�erwards. Universal indicator is alcohol-based and �ammable. Use vinegar in a well-ventilated room. Read and follow all safety warnings on the label. Dispose of all liquid waste down the drain or according to local regulations.

Materials for the Demonstration• Universal indicator solution• Water• 2 clear plastic cups• Straw

Materials for Each Group• Water• Universal indicator solution in cup• Universal indicator pH color chart• Carbonated water (club soda or seltzer water) in wide, clear, plastic cup

668 Middle School Chemistry - www.middleschoolchemistry.com ©2019 American Chemical Society

• Baking soda in wide, clear, plastic cup• Vinegar• Alka-Seltzer tablet• 2 small clear plastic cups• 4 wide clear plastic cups• 4 taller, clear, plastic cups• Graduated cylinder• Snack-sized zip-closing plastic bag

ENGAGE1. Do a demonstration to show that adding CO2 gas to water can make the

water become acidic.

Materials for the Demonstration• Universal indicator solution• Water• 2 clear plastic cups• Straw

Teacher PreparationMake indicator solution for student groups

• Make a dilute universal indicator solution for this demonstration and for each student group by combining 625 mL water with 25 mL universal indicator solution.

• Pour at least 80 mL of this dilute universal indicator solution into a clean plastic cup for each student group.

Note: Your local tap water is likely �ne for the demonstration and activities in this lesson. If the indicator solution you make is not green, this means that your water is either acidic or basic. If this happens, use distilled water, which is available in supermarkets and pharmacies. Note: In the activities, each group will need 80 mL of indicator solution. Check to make sure that you prepare enough solution. You will need about 50–60 mL of indicator solution for your demonstration. If 650 mL of solution is not enough, make more using the same proportions.

About the MaterialsFor this lesson, each group will need a Universal Indicator pH color chart. Print enough pages of these charts on a color printer so that each group can have their own chart. You may also choose to purchase them from Flinn Scienti�c, Product number AP8765.

Each group will also need universal indicator solution, Flinn Product #U0002, Flinn Product #C0136 (500 grams), and sodium bicarbonate (baking soda).


Prepare for the DemonstrationPour about 25–30 mL of indicator solution into each of two clear plastic cups for you to use in the demonstration.

Procedure1. Show students both samples of universal indicator solu-

tion. Place a straw in one of the samples so that the straw goes all the way to the bo�om of the cup.

2. Hold the cup so that students can clearly see the liquid. Blow into the straw until the indicator solution changes from green to yellow.

Ask students:• Does blowing into the indicator solution change its

pH? Yes, the color changes, so there must be a change in pH, too.

• Does the solution become a li�le more acidic or a li�le more basic? �e color change shows that the solution is a li�le more acidic.

Tell students that a chemical reaction occurs between the molecules of CO2 and the molecules of H2O to create a very small amount of an acid called carbonic acid (H2CO3).

Give each student an activity sheet.Students will record their observations and answer questions about the activity on the activity sheet. �e Explain It with Atoms & Molecules and Take It Further sections of the activity sheet will either be completed as a class, in groups, or individually, depending on your instructions. To �nd the answers to the activity sheet, go to the down-loads area within the online version of this lesson.


EXPLORE2. Have students use club soda as a source of CO2 to see if the gas

will change the pH of an indicator solution.

Question to InvestigateWill carbon dioxide from carbonated water change the pH of an indicator solution?

Materials for Each Group• Universal indicator solution in a plastic cup• Water• Carbonated water (club soda or seltzer water) in a wide clear plastic cup• 1 wide, clear, plastic cup• 2 taller, clear, plastic cups• Graduated cylinder• Universal Indicator pH Color Chart

Teacher PreparationPour 25 mL of carbonated water into a wide, clear, plastic cup for each group.

Procedure1. Measure 30 mL of universal indicator

solution and divide it evenly into two small, clear, plastic cups.

2. Add 25 mL of water to a wide plastic cup and 25 mL of carbonated water to another wide cup.

3. Stand the small cups with indicator solution in the liquid in the wider cups as shown.

4. Turn the two tall cups upside down and place them over the two wider cups.

5. While holding the top and bo�om cups to keep them together, gently swirl both sets of cups. Watch the color of the indicator in both cups to see if there is any change.

6. Compare the color of the indicator to the pH Color Chart to �nd out whether the solution is acidic, neutral, or basic.


Expected Results�e indicator inside the cups with water remained green, while the indicator with the carbonated water turned yellow.

3. Discuss student observations and what will happen in the following activity.

Ask students:• Did either indicator change color?

Only the indicator with the carbonated water changed color.• What does the color change tell you about the pH of the indicator solution? Is it

acidic or basic? �e indicator solution is now acidic.

• �e carbonated water should not have splashed into the indicator. Why did the indicator solution change color in one set of cups? �e carbon dioxide from the carbonated water dissolved in the indicator solution. �e molecules of carbon dioxide reacted with the water, forming carbonic acid, and changed the color of the indicator.

Tell students that they have seen carbon dioxide gas from your breath and carbon dioxide gas from carbonated water turn an indicator solution acidic.

Ask students:• Do you think carbon dioxide gas produced during a chemical reaction will also

turn an indicator solution acidic? Carbon dioxide from any source should cause the indicator solution to become acidic. �e amount of carbon dioxide gas produced and dissolved in the indicator solution may cause the color of the indicator to vary, but on the acidic side.

• What chemical reaction do you know of that can produce carbon dioxide gas? Students should remember that vinegar and baking soda react, producing carbon dioxide gas. Tell students that they will combine baking soda and vinegar in the next activity.

4. Use a chemical reaction to produce CO2 to see if it changes the pH of an indicator solution.

Question to InvestigateWill carbon dioxide gas produced in the baking soda and vinegar reaction change the pH of an indicator solution?


Materials for Each Group• Universal indicator solution in cup• Universal indicator pH color chart• Water• Baking soda in wide clear plastic cup• Vinegar in cup• 2 small clear plastic cups• 1 wide clear plastic cups• 2 taller clear plastic cups• Graduated cylinder

Teacher Preparation• Pour about 50 mL of vinegar in a wide plastic cup for each group.• Place about ½ teaspoon of baking soda into a small clear plastic cup for each group.

Procedure1. Measure and pour 25ml of vinegar into

two wide plastic cups. 2. Pour 15ml of universal indicator into two

clean small plastic cups.3. Pour all the baking soda into one of the

cups of vinegar. Do not pour anything into the other.

4. Stand the small cups with indicator solution in both of the wider cups as shown.




Expected Results�e indicator inside the cup with only vinegar remained green while the indicator inside the cup with the vinegar and baking soda reaction turned yellow.


5. Discuss student observations.

Ask students:• Did either indicator change color?

Only the indicator with the chemical reaction changed color. • Why did one set of cups only have vinegar in the bo�om?

It is possible that vinegar by itself causes the indicator to change color. Since this indicator did not change color, it must be the carbon dioxide gas produced by the chemical reaction, and not just the vinegar that caused the color change. �e indica-tor solution in the set of cups with only vinegar in the bo�om serves as a control.

• What does the color of the indicator solution tell you about the pH of each solu-tion? Is it acidic, neutral, or basic? �e color change shows that the indicator solution is slightly acidic.

• What could you add to the acidic indicator solution to neutralize it? Because the indicator solution is acidic, students should suggest adding a base. Tell students that baking soda is a base.

EXPLAIN6. Explain that carbon dioxide from any source can make water acidic.

Ask students:• What did carbon dioxide from breath, carbonated water, and the baking soda

and vinegar reaction all do to water? �e CO2 from each source reacted with the water and made it acidic.

Project the illustration CO2 Reacting with Water.Tell students that carbon dioxide reacts with water to produce carbonic acid. Students may count up the number of atoms on each side of the equation to show that it is bal-anced. Point out that the double arrow in this equation means that carbonic acid breaks down readily to form carbon dioxide and water again.

Explain to students that too much CO2 in the atmosphere causes Earth and its atmo-sphere to become warmer. But excess CO2 can do something else which they have seen in the chemical equation and in their experiments. Carbon dioxide can make water more acidic which is causing a big problem in the oceans. �e excess acid in ocean water, called ocean acidi�cation, makes it di�cult for some organisms to form shells and is especially damaging to coral.


EXTEND7. Explain how ocean acidication is bad for shell-making organisms and show

a video about ocean acidication.

Explain that the ocean is actually basic. �e pH of the ocean is about 8.2. �e term “ocean acidi�cation” means that the ocean is tending to become more acidic or less basic. It has moved from about 8.2 to 8.1. �is may not seem like a big change but it is a very big change to organisms in the ocean which are very sensitive to changes in pH. When ocean water becomes more acidic it causes two main problems for shell-making organisms like clams, oysters, and coral:

1. It becomes harder for these organisms to make their shells2. If the water becomes too acidic, normal shells can react with the more acidic water

causing the shell to break down

Clams, oysters, coral and other shell-making organisms make their shells out of two ions: the calcium ion (Ca+2) and the carbonate ion (CO3

-2). When these two ions join together, they make calcium carbonate (CaCO3) which is the main substance for the structure of the shell. Ocean acidi�cation a�ects the carbonate ion. Here’s how:

�e site also o�ers a wealth of resources on ocean acidi�cation and climate change.

Project the illustration Carbonic acid and Carbonate ion.Project the illustration Carbonic acid and Carbonate ion.

Remind students that water and carbon dioxide react to form carbonic acid.

A hydrogen atom from the carbonic acid gets into the water as a hydrogen ion (H+). �is hydrogen ion bonds to the carbonate ion in ocean water and creates bicarbonate ion


(HCO-3) which the shell-making organisms can’t use. �is means there are fewer carbon-ate ions for the creatures to a�ach a calcium ion to, making it harder for them to make the calcium carbonate they need to make their shells.

Extra hydrogen ions in the water also makes the water more acidic. If the water eventu-ally gets too acidic it might react with the calcium carbonate in the shells causing them to break down.

Show the video Ocean Acidi�cation.

Note: �e narration and action of the video go by pre�y quickly so you might want to stop the video in a few places to help students understand what is being presented.

�e green dots represent excess carbon dioxide in the atmosphere due to the burning of fossil fuels. �e ocean absorbs a large amount of this carbon dioxide.

�e li�le orange characters represent car-bonate ions which the shell-making organ-isms need. �ey use carbonate ions and calcium ions to make calcium carbonate to build their shells.

Carbon dioxide reacts with water and pro-duces carbonic acid (green irregular blob) which produces hydrogen ions. �ese ions bond to the carbonate ions and create a substance (bicarbonate ion not shown) that the organisms can’t use.

With shells di�cult to make, clams and other shell-making organisms will be smaller and not reproduce as much so the creatures that eat them may not get enough food. �is could a�ect the whole food chain.


8. Have students do research on ways to reduce the amount of carbon dioxide released into the atmosphere.

�e vast majority of the excess carbon dioxide in Earth’s atmosphere is from burning fossil fuels such as petroleum, natural gas, and coal. Most of this fuel is used for cars, trucks and other forms of transportation, for running power plants that produce electricity, and for heating homes and businesses.

Have students research alternative sources of energy that could help in burning less fossil fuel. Students could present their research in a short paper with illustrations, power point, tri-fold board, or in any way you feel will work. Students should describe how the renew-able energy source works and the advantages and challenges of the technology.

Some possible topics could be:

Renewable energy sources Wind Solar GeothermalBiofuelsHydroelectric

New transportation technologyElectric carsHydrogen fuel cells

�e extra hydrogen ions don’t just bond to the carbonate ion, they also make the water more acidic.

�e oceans could become so acidic in the future that the calcium carbonate shells could react with the water and break down.

©2019 American Chemical Society Middle School Chemistry 677

Activity Sheet Name ____________________Chapter 6, Lesson 10 Carbon Dioxide Can Make a Solution Acidic Date _____________________

DEMONSTRATION

1. Your teacher blew through a straw into a universal indicator solution until it changed color. Did the indicator solution become acidic or basic?

2. What chemical from your teacher’s breath caused the indicator to change color?

ACTIVITY

Question to InvestigateWill carbon dioxide from carbonated water change the pH of an indicator solution?

Materials for Each Group• Universal indicator solution in a plastic cup• Water• Carbonated water in a wide clear plastic cup• 1 wide, clear, plastic cup• 2 taller, clear, plastic cups• Graduated cylinder• Universal Indicator pH Color Chart

678 Middle School Chemistry ©2019 American Chemical Society

Procedure1. Measure 30 mL of universal indicator solu-

tion and divide it evenly into two small clear plastic cups.

2. Add 25 mL of water to a wide plastic cup and 25 mL of carbonated water to another wide cup.

3. Stand the small cups with indicator solu-tion in the liquid in the wider cups as shown.




3. What does the color of the indicator solution tell you about the pH of each solution? Is it acidic, neutral, or basic?

Describe the color of the indicator solution in each set of cups

Carbonated Water Water


4. The carbonated water and water should not have splashed into the indicator solutions. Why did the indicator solution change color in one set of cups?

ACTIVITYQuestion to InvestigateWill carbon dioxide gas produced in the baking soda and vinegar reaction change the pH of an indicator solution?

Materials for Each Group• Universal indicator solution in cup• pH color chart• Water• Baking soda in wide clear plastic cup• Vinegar in cup• 2 small, clear, plastic cups• 1 wide, clear, plastic cups• 2 taller, clear, plastic cups• Graduated cylinder

Procedure1. Measure 30 mL of universal indicator solution

and pour it into a clean, small, plastic cup. 2. Pour half the indicator solution into

another small cup so that you have two equal samples.

3. Pour the vinegar on top of the baking soda in one of the wide, clear, plastic cups. �e other wide, clear, plastic cup should be empty.

4. Stand the small cups with indicator solu-tion in both of the wider cups as shown.





5. What does the color of the indicator solution tell you about the pH of each solution? Is it acidic, neutral, or basic?

6. Why did one set of cups only have vinegar in the bottom, while the other had vinegar and baking soda?

7. The baking soda and vinegar should not have splashed into their indicator solutions. Why did the indicator solution change color in one set of cups?

Describe the color of the indicator solution in each set of cups

Reacting baking soda and vinegar Just Vinegar


EXPLAIN IT WITH ATOMS & MOLECULES

8. Water and carbon dioxide gas react to produce carbonic acid. As more car-bon dioxide is released into the atmosphere, why is that a problem for our oceans?

TAKE IT FURTHER

Question to InvestigateHow does the pH of the solution change during a chemical reaction between the ingredi-

H2O CO2 H2CO3

+

water carbon dioxide carbonic acid


ents in an Alka-Seltzer tablet in water?

Materials for Each Group• Universal indicator solution in cup• Water• Alka-Seltzer tablet• Graduated cylinder• Snack-sized zip-closing plastic bag

Procedure1. Add 20 mL of universal indicator

solution to a snack-sized zip-closing plastic bag.

2. Seal the bag.

9. What do you think caused the bag to in¦ate?

10. Why do you think the indicator solution turned green at the end of the reaction?

What do the color changes tell you about the pH of the indicator solution during the chemical reaction?

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What do the color changes tell you about the pH of the indicator solution during the chemical reaction?

Beginning

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chapter 6, lesson 10: carbon dioxide can make a solution acidic · 2019. 8. 9. · ©2019 american...

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